SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2890197927> ?p ?o ?g. }

Showing items 1 to 100 of ±164 with 100 items per page.

W2890197927 endingPage "554" @default.
W2890197927 startingPage "529" @default.
W2890197927 abstract "Fuel cells that convert fuels into electricity with zero emission are the most environment-friendly devices for the future. This chapter explains the working principle of polymer electrolyte membrane (PEM) fuel cell. It consists of two electrodes: a cathode, where oxygen reduction reaction (ORR) occurs, and an anode for fuel (methanol or hydrogen) oxidation, separated by a polymer membrane. ORR is a multistep reaction that proceeds either through an efficient four electron process or via a two-step, two-electron pathway. The chapter demonstrates graphene-based, metal-free catalysts to show exceptional stability and high efficiency in fuel cells. Graphene is a vast carpet of the aromatic framework with tremendous opportunities for surface design. Heteroatom-doped graphene materials are a promising class of metal-free electrocatalysts for the ORR in fuel cell. Nitrogen-doped graphene has received significant interest in the recent years for applications including photocatalysis and ORR." @default.
W2890197927 created "2018-09-27" @default.
W2890197927 creator A5043021704 @default.
W2890197927 creator A5051787201 @default.
W2890197927 date "2018-09-03" @default.
W2890197927 modified "2023-09-26" @default.
W2890197927 title "Functionalized Graphene-Based, Metal-Free Electrocatalysts for Oxygen Reduction Reaction in Fuel Cells" @default.
W2890197927 cites W1627590199 @default.
W2890197927 cites W1696759244 @default.
W2890197927 cites W1960807188 @default.
W2890197927 cites W1969537524 @default.
W2890197927 cites W1972727161 @default.
W2890197927 cites W1976560488 @default.
W2890197927 cites W1981909327 @default.
W2890197927 cites W1984540431 @default.
W2890197927 cites W1986858008 @default.
W2890197927 cites W1995153219 @default.
W2890197927 cites W1998298257 @default.
W2890197927 cites W1999469559 @default.
W2890197927 cites W2004427968 @default.
W2890197927 cites W2004489344 @default.
W2890197927 cites W2009901571 @default.
W2890197927 cites W2012449045 @default.
W2890197927 cites W2016365520 @default.
W2890197927 cites W2022299938 @default.
W2890197927 cites W2022673560 @default.
W2890197927 cites W2022917610 @default.
W2890197927 cites W2023492950 @default.
W2890197927 cites W2029882585 @default.
W2890197927 cites W2036402902 @default.
W2890197927 cites W2036953943 @default.
W2890197927 cites W2037344743 @default.
W2890197927 cites W2041545942 @default.
W2890197927 cites W2043202157 @default.
W2890197927 cites W2044801601 @default.
W2890197927 cites W2045732482 @default.
W2890197927 cites W2058122340 @default.
W2890197927 cites W2063014337 @default.
W2890197927 cites W2069559802 @default.
W2890197927 cites W2069914206 @default.
W2890197927 cites W2071684814 @default.
W2890197927 cites W2077576414 @default.
W2890197927 cites W2080063458 @default.
W2890197927 cites W2080571881 @default.
W2890197927 cites W2082658405 @default.
W2890197927 cites W2085028585 @default.
W2890197927 cites W2088105124 @default.
W2890197927 cites W2091091467 @default.
W2890197927 cites W2091938741 @default.
W2890197927 cites W2100647938 @default.
W2890197927 cites W2101467353 @default.
W2890197927 cites W2108622691 @default.
W2890197927 cites W2109940150 @default.
W2890197927 cites W2111470825 @default.
W2890197927 cites W2115496480 @default.
W2890197927 cites W2119989570 @default.
W2890197927 cites W2124002508 @default.
W2890197927 cites W2125449488 @default.
W2890197927 cites W2127847915 @default.
W2890197927 cites W2132547170 @default.
W2890197927 cites W2140746559 @default.
W2890197927 cites W2150556972 @default.
W2890197927 cites W2150914893 @default.
W2890197927 cites W2153119384 @default.
W2890197927 cites W2155084317 @default.
W2890197927 cites W2157494616 @default.
W2890197927 cites W2160197295 @default.
W2890197927 cites W2163483938 @default.
W2890197927 cites W2180059240 @default.
W2890197927 cites W2203309456 @default.
W2890197927 cites W2204922787 @default.
W2890197927 cites W2209933873 @default.
W2890197927 cites W2218112762 @default.
W2890197927 cites W224880706 @default.
W2890197927 cites W2259386583 @default.
W2890197927 cites W2273976302 @default.
W2890197927 cites W2299947148 @default.
W2890197927 cites W2314283937 @default.
W2890197927 cites W2316518391 @default.
W2890197927 cites W2331836833 @default.
W2890197927 cites W2334028345 @default.
W2890197927 cites W2489949788 @default.
W2890197927 cites W2500203595 @default.
W2890197927 cites W2510970521 @default.
W2890197927 cites W2520851868 @default.
W2890197927 cites W2561192830 @default.
W2890197927 cites W2561290021 @default.
W2890197927 cites W2565391790 @default.
W2890197927 cites W2589774926 @default.
W2890197927 cites W2593973026 @default.
W2890197927 cites W2604559643 @default.
W2890197927 cites W398834056 @default.
W2890197927 cites W4233194460 @default.
W2890197927 cites W4241716881 @default.
W2890197927 cites W4302840617 @default.
W2890197927 doi "https://doi.org/10.1002/9783527811458.vol2-ch7" @default.
W2890197927 hasPublicationYear "2018" @default.
W2890197927 type Work @default.